The risk of explosion becomes significant when, in the industrial field, flammable substances such as gases, vapours, mists, dusts, lint and fibres may be present. If they are present in sufficient quantity, the risk of explosion is imminent. On the other hand, the measure of shutting down the technical equipment, in the context of the presence of explosive atmospheres, is not an acceptable measure in all situations. As examples are the parts of installations that have safety functions: ventilation installations, installations for monitoring the concentration of flammable substances and other safety parameters. Explosion protection of technical equipment shall be evaluated and tested in order to validate it. The testing process of the technical equipment for the purpose of explosion protection certification is situated at the confluence of several engineering fields: mechanical, electrical, chemical, etc. The first part of the paper deals with the risk of explosion and presents the explosion protection of the technical equipment. The systematized presentation of the technical equipment tests is performed in the second part of the paper. Among the conclusions it is mentioned that although the field of tests in explosion atmospheres is an interdisciplinary one, its coherence is ensured by the specific standards.
Equipment operating in installations endangered by the occurrence of potentially explosive atmospheres have special features designed in order to make them suitable for operations in such areas. Equipment designed for use in potentially explosive atmospheres shall be placed on the EU market considering the provisions of the ATEX Directive 2014/34/EU and the harmonized European standards under this Directive. Even if equipment is placed on the EU market in accordance with ATEX Directive 2014/34/EU provisions, the special characteristics providing protection to explosion can be invalidated in installation design, erection, operation, inspection, maintenance or repairing phases. In order to prevent invalidation of explosion protection characteristics an important accent is placed on training and authorization of personnel involved in design, mounting, operation, inspection, maintenance or repairing of equipment/installations operating in potentially explosive atmospheres.
The increase in energy consumption is closely correlated with the continuous evolution of human society, which implies both the depletion of fossil fuels and the increase in pollution levels. One solution to these problems is to obtain electricity from renewable sources but also to use alternative fuels for car transportation. Within the paper, there are presented the necessary conditions for the design of hydrogen gas stations in accordance with the legal requirements in force regarding the protection to explosion.
Explosive atmospheres can be caused by gases, vapors, mist, dust, lint, or fibers of flammable substances. If there is a sufficient quantity of the substance mixed with air, the imminence of an explosion depends on the probability and efficiency of the ignition source. The type of pressurized enclosure protection consists of separating the potentially explosive atmosphere from the ignition source by maintaining an overpressure inside the enclosure using a protective gas. The use of the equipment in an enclosure with a risk of an explosive atmosphere is accepted after going through the certification and testing process. Testing is carried out by the standards for explosion-protected equipment with pressurized enclosure protection. The main conclusion of the work is that the use of a new oxygen analyzer allows ten times higher value resolutions.
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